Allicdata Part #: | HRMJ-PO62P-A(40)-ND |
Manufacturer Part#: |
HRMJ-PO62P-A(40) |
Price: | $ 23.21 |
Product Category: | Uncategorized |
Manufacturer: | Hirose Electric Co Ltd |
Short Description: | RF COAX CONVERTER ADAPTER |
More Detail: | N/A |
DataSheet: | HRMJ-PO62P-A(40) Datasheet/PDF |
Quantity: | 1000 |
1 +: | $ 21.09870 |
Series: | * |
Part Status: | Active |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
The HRMJ-PO62P-A(40) application field and working principle is an important concept in modern engineering. It represents an approach for efficiently transferring energy from one source to another in a system. This type of system is usually employed in application fields such as communications, power transmission, computing and robotics. The main idea behind this technique is to efficiently transform energy from a source that can be utilized in other parts of a system without wasting any electricity. This approach is used in several different applications, such as computer systems, telecommunications systems, signal processing, and intelligent controllers.
In electrical engineering, the HRMJ-PO62P-A(40) application field and working principle are mainly used for the efficient transfer of power from one source (e.g. a battery) to another (such as a motor). This approach can be used with any electrical system, from basic components to more advanced systems. Generally speaking, it involves the careful calculation of variables that can affect the power transfer, in order to ensure maximum efficiency. It is also used to minimize the energy loss during the transmission process. In the case of a motor, for instance, the process of calculating the variables for transfer can include calculations of losses, resistance, input voltage, and more.
For telecommunications, the HRMJ-PO62P-A(40) application field and working principle can be employed for efficient signal and data transmission. This concept involves the careful calculation of data transmission variables, such as bandwidth, signal-to-noise ratio, and frequency. Furthermore, the concept is also used to optimize the overall cost of the implementation through its design. Efficiently transferring data from the source to the end user without any energy loss is one of the primary goals of this type of system.
In the field of robotics, the HRMJ-PO62P-A(40) application field and working principle are applied in different ways. For instance, the concept can be used to design an efficient controller for a robotic system. Here, the controller must be carefully designed so that it takes full advantage of the energy from the sources used. This energy can then be effectively utilized to control a robotic system, such as a robotic arm or a robotic vehicle. In addition, the same concept is also applied in robotics to efficiently transfer energy from the power source to the robot and to ensure maximum efficiency by calculating variables such as voltage, current, power, and resistance.
The HRMJ-PO62P-A(40) application field and working principle is also used in computing. Here, the approach is used to optimize the performance of a computer system. This can involve the efficient transmission of energy within the system, as well as minimizing the amount of energy lost during transmissions. Efficiently transferring data from the source to the user in a computer system is the primary goal. Additionally, the concept is also a great help when it comes to optimizing the overall performance of a computer system.
In conclusion, the HRMJ-PO62P-A(40) application field and working principle is an important concept in modern engineering. It is used to efficiently transfer energy from one source to another in a system, and is employed in application fields such as communications, power transmission, computing, and robotics. It is also used in computing, to help optimize the performance of a computer system. By properly understanding and implementing the HRMJ-PO62P-A(40) application field and working principle, engineers and technicians can help to reduce the amount of energy loss when transferring energy from one source to another, resulting in improved efficiency and performance.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
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HRMJ-H.FLP(40) | Hirose Elect... | 23.08 $ | 1000 | CONN ADAPT SMA JACK TO H.... |
HRMJ-S.FLP(40) | Hirose Elect... | 30.6 $ | 1000 | CONN ADAPT SMA JACK-S.FL ... |
HRMJ-U.FLJ-PC(01) | Hirose Elect... | 9.79 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
HRMJ-W.FL2P-ST3 | Hirose Elect... | 44.18 $ | 1000 | CONN ADAPT SMA JACK - W.F... |
MS-162-HRMJ-H1 | Hirose Elect... | 46.07 $ | 1000 | CONN ADAPT COAX PLUG TO S... |
HRMJ-U.FLP-ST5 | Hirose Elect... | 49.01 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
HRMJ-U.FLP-ST1A(40) | Hirose Elect... | 49.25 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
MS-147-HRMJ-3 | Hirose Elect... | 50.66 $ | 1000 | CONN ADAPT COAX JACK TO S... |
MS151J-HRMJ | Hirose Elect... | 55.99 $ | 1000 | CONN ADAPT COAX JACK TO S... |
MS-156-HRMJ-14 | Hirose Elect... | 57.37 $ | 4 | CONN ADAPT COAX PLUG TO S... |
HRMJ-E.FLP(40) | Hirose Elect... | 32.52 $ | 1000 | CONN ADAPT SMA JACK TO E.... |
HRMJ-FLP-1(40) | Hirose Elect... | 32.82 $ | 1000 | CONN ADAPT FL PLUG TO SMA... |
HRMJ-U.FLP-LA5(40) | Hirose Elect... | 32.87 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
HRMJ-W.FLP-ST3 | Hirose Elect... | 35.94 $ | 1000 | CONN ADAPT SMA JACK TO W.... |
HRMJ-E.FLP-5(40) | Hirose Elect... | 36.05 $ | 1000 | CONN ADAPT SMA JACK TO E.... |
HRMJ-W.FLP-ST1(40) | Hirose Elect... | 36.17 $ | 3 | CONN ADAPT SMA JACK TO W.... |
MS-180-HRMJ-1 | Hirose Elect... | 41.36 $ | 1000 | CONN ADAPT COAX PLUG TO S... |
HRMJ-H.FLP-5(40) | Hirose Elect... | 41.59 $ | 1000 | CONN ADAPT SMA JACK TO H.... |
HRMJ-H.FLJ-WPA(40) | Hirose Elect... | 41.59 $ | 1000 | CONN ADAPT SMA JACK TO H.... |
HRMJ-U.FLP-ST4 | Hirose Elect... | 43.0 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
HRMJ-U.FLJ-PA-1(40) | Hirose Elect... | 10.32 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
HRMJ-U.FLJ-PC-1 | Hirose Elect... | 11.06 $ | 1000 | CONN ADAPT SMA JACK TO U.... |
HRMP(PO)-HRMJ | Hirose Elect... | 13.88 $ | 64 | CONN ADAPT PLUG-JACK SMA ... |
MS-156-HRMJ-6 | Hirose Elect... | 45.83 $ | 1000 | CONN ADAPT COAX PLUG TO S... |
MS-156-HRMJ-5 | Hirose Elect... | 44.42 $ | 1 | CONN ADAPT COAX PLUG TO S... |
HRMJ-MMCXP | Hirose Elect... | 27.83 $ | 1000 | CONN ADAPT SMA JACK TO MM... |
HRMJ-SMA(R)P | Hirose Elect... | 41.59 $ | 1000 | CONN ADAPT SMA PLUG-RP TO... |
MS-180-HRMJ-F6 | Hirose Elect... | 52.19 $ | 1000 | CONN ADAPT COAX PLUG TO S... |
HRMJ-U.FLP(40) | Hirose Elect... | 19.49 $ | 1553 | CONN ADAPT SMA JACK TO U.... |
MS-156-HRMJ-12 | Hirose Elect... | 83.06 $ | 53 | CONN ADAPT COAX PLUG TO S... |
HRMJ-W.FLP(40) | Hirose Elect... | 21.92 $ | 120 | CONN ADAPT W.FL PLUG TO S... |
MS-180-HRMJ-3 | Hirose Elect... | 80.47 $ | 25 | CONN MEASURE PROBE FOR MS... |
CP-HRMJU.FLJC-1A | Hirose Elect... | 31.54 $ | 11 | CONN ADAPT SMA JACK TO U.... |
MS-156-HRMJ-11 | Hirose Elect... | 39.82 $ | 6 | CONN ADAPT COAX PLUG TO S... |
HRMJ-SMPJ-18G | Hirose Elect... | 51.6 $ | 12 | CONN ADAPT SMA JACK-PO40G... |
HRMJ-X.FLP-ST3 | Hirose Elect... | 53.02 $ | 13 | CONN ADAPT SMA JACK TO X.... |
HRMJ-FLJ(40) | Hirose Elect... | 53.72 $ | 8 | CONN ADAPT SMA JACK TO FL... |
GT16GS-HRMJ | Hirose Elect... | 91.48 $ | 6 | CONN ADAPT GT16G JACK TO ... |
MS-166-HRMJ-H1 | Hirose Elect... | 109.15 $ | 11 | CONN ADAPT COAX PLUG TO S... |
MS-166-HRMJ-1 | Hirose Elect... | 195.43 $ | 3 | CONN ADAPT COAX PLUG TO S... |
DIODE GENERAL PURPOSE TO220
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